1 Guner-Ataman B, "Zebrafish second heart field development relies on progenitor specification in anterior lateral plate mesoderm and nkx2.5 function" 140 : 1353-1363, 2013
2 Liu J, "Zebrafish in the study of early cardiac development" 110 : 870-874, 2012
3 McCulley DJ, "Transcription factor pathways and congenital heart disease" 100 : 253-277, 2012
4 Driever W, "The zebrafish: heritable disorders in transparent embryos" 97 : 1788-1794, 1996
5 Long S, "The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry" 130 : 2303-2316, 2003
6 Begemann G, "The zebrafish neckless mutation reveals a requirement for raldh2 in mesodermal signals that pattern the hindbrain" 128 : 3081-3094, 2001
7 Roxo-Rosa M, "The zebrafish Kupffer’s vesicle as a model system for the molecular mechanisms by which the lack of Polycystin-2 leads to stimulation of CFTR" 4 : 1356-1366, 2015
8 Sakaguchi T, "The yolk syncytial layer regulates myocardial migration by influencing extracellular matrix assembly in zebrafish" 133 : 4063-4072, 2006
9 Osborne N, "The spinster homolog, two of hearts, is required for sphingosine 1-phosphate signaling in zebrafish" 18 : 1882-1888, 2008
10 Kawahara A, "The sphingolipid transporter spns2 functions in migration of zebrafish myocardial precursors" 323 : 524-527, 2009
1 Guner-Ataman B, "Zebrafish second heart field development relies on progenitor specification in anterior lateral plate mesoderm and nkx2.5 function" 140 : 1353-1363, 2013
2 Liu J, "Zebrafish in the study of early cardiac development" 110 : 870-874, 2012
3 McCulley DJ, "Transcription factor pathways and congenital heart disease" 100 : 253-277, 2012
4 Driever W, "The zebrafish: heritable disorders in transparent embryos" 97 : 1788-1794, 1996
5 Long S, "The zebrafish nodal-related gene southpaw is required for visceral and diencephalic left-right asymmetry" 130 : 2303-2316, 2003
6 Begemann G, "The zebrafish neckless mutation reveals a requirement for raldh2 in mesodermal signals that pattern the hindbrain" 128 : 3081-3094, 2001
7 Roxo-Rosa M, "The zebrafish Kupffer’s vesicle as a model system for the molecular mechanisms by which the lack of Polycystin-2 leads to stimulation of CFTR" 4 : 1356-1366, 2015
8 Sakaguchi T, "The yolk syncytial layer regulates myocardial migration by influencing extracellular matrix assembly in zebrafish" 133 : 4063-4072, 2006
9 Osborne N, "The spinster homolog, two of hearts, is required for sphingosine 1-phosphate signaling in zebrafish" 18 : 1882-1888, 2008
10 Kawahara A, "The sphingolipid transporter spns2 functions in migration of zebrafish myocardial precursors" 323 : 524-527, 2009
11 Pennekamp P, "The ion channel polycystin-2 is required for left-right axis determination in mice" 12 : 938-943, 2002
12 Hoffman JI, "The incidence of congenital heart disease" 39 : 1890-1900, 2002
13 Patton EE, "The art and design of genetic screens: zebrafish" 2 : 956-966, 2001
14 Amack JD, "The T box transcription factor no tail in ciliated cells controls zebrafish left-right asymmetry" 14 : 685-690, 2004
15 Mendelson K, "Sphingosine 1-phosphate signalling" 141 : 5-9, 2014
16 Clay H, "Sphingosine 1-phosphate receptor-1 in cardiomyocytes is required for normal cardiac development" 418 : 157-165, 2016
17 D’Amico LA, "Spatially distinct domains of cell behavior in the zebrafish organizer region" 75 : 563-577, 1997
18 Lahvic JL, "Small heat shock proteins are necessary for heart migration and laterality determination in zebrafish" 384 : 166-180, 2013
19 Mizoguchi T, "Sdf1/Cxcr4 signaling controls the dorsal migration of endodermal cells during zebrafish gastrulation" 135 : 2521-2529, 2008
20 Fukui H, "S1PYap1 signaling regulates endoderm formation required for cardiac precursor cell migration in zebrafish" 31 : 128-136, 2014
21 Rao DR, "Role of cilia in structural birth defects: insights from ciliopathy mutant mouse models" 102 : 115-125, 2014
22 Keegan BR, "Retinoic acid signaling restricts the cardiac progenitor pool" 307 : 247-249, 2005
23 Marques SR, "Reiterative roles for FGF signaling in the establishment of size and proportion of the zebrafish heart" 321 : 397-406, 2008
24 Knowles MR, "Primary ciliary dyskinesia. Recent advances in diagnostics, genetics, and characterization of clinical disease" 188 : 913-922, 2013
25 Delling M, "Primary cilia are not calciumresponsive mechanosensors" 531 : 656-660, 2016
26 Keegan BR, "Organization of cardiac chamber progenitors in the zebrafish blastula" 131 : 3081-3091, 2004
27 Tong YF, "Mutations of NKX2.5 and GATA4 genes in the development of congenital heart disease" 588 : 86-94, 2016
28 Schier AF, "Molecular genetics of axis formation in zebrafish" 39 : 561-613, 2005
29 Lazic S, "Mef2cb regulates late myocardial cell addition from a second heart field-like population of progenitors in zebrafish" 354 : 123-133, 2011
30 Xiang SY, "Lysophospholipid receptor activation of RhoA and lipid signaling pathways" 1831 : 213-222, 2013
31 Ramsdell AF, "Left-right asymmetry and congenital cardiac defects: getting to the heart of the matter in vertebrate left-right axis determination" 288 : 1-20, 2005
32 Zhou Y, "Latent TGF-beta binding protein 3 identifies a second heart field in zebrafish" 474 : 645-648, 2011
33 Essner JJ, "Kupffer’s vesicle is a ciliated organ of asymmetry in the zebrafish embryo that initiates left-right development of the brain, heart and gut" 132 : 1247-1260, 2005
34 Yuan S, "Intraciliary calcium oscillations initiate vertebrate left-right asymmetry" 25 : 556-567, 2015
35 Sarmah B, "Inositol polyphosphates regulate zebrafish left-right asymmetry" 9 : 133-145, 2005
36 Wilcox AJ, "Incidence of early loss of pregnancy" 319 : 189-194, 1988
37 Santoriello C, "Hooked! Modeling human disease in zebrafish" 122 : 2337-2343, 2012
38 Chen JN, "Genetics of heart development" 16 : 383-388, 2000
39 Reiter JF, "Gata5 is required for the development of the heart and endoderm in zebrafish" 13 : 2983-2995, 1999
40 Okabe N, "Fluid dynamics in zebrafish Kupffer’s vesicle" 237 : 3602-3612, 2008
41 Tanaka Y, "FGF-induced vesicular release of Sonic hedgehog and retinoic acid in leftward nodal flow is critical for left-right determination" 435 : 172-177, 2005
42 Neugebauer JM, "FGF signalling during embryo development regulates cilia length in diverse epithelia" 458 : 651-654, 2009
43 Regan L, Rai R, "Epidemiology and the medical causes of miscarriage" 14 : 839-854, 2000
44 Marques SR, "Differential requirement for BMP signaling in atrial and ventricular lineages establishes cardiac chamber proportionality" 328 : 472-482, 2009
45 Kennedy MP, "Congenital heart disease and other heterotaxic defects in a large cohort of patients with primary ciliary dyskinesia" 115 : 2814-2821, 2007
46 Kramer-Zucker AG, "Cilia-driven fluid flow in the zebrafish pronephros, brain and Kupffer’s vesicle is required for normal organogenesis" 132 : 1907-1921, 2005
47 McGrath J, "Cilia are at the heart of vertebrate left-right asymmetry" 13 : 385-392, 2003
48 Matsui T, "Cell collectivity regulation within migrating cell cluster during Kupffer’s vesicle formation in zebrafish" 3 : 27-, 2015
49 Kikuchi Y, "Casanova encodes a novel Sox-related protein necessary and sufficient for early endoderm formation in zebrafish" 15 : 1493-1505, 2001
50 Moller JH, "Cardiovascular health and disease in children: current status. A Special Writing Group from the Task Force on Children and Youth, American Heart Association" 89 : 923-930, 1994
51 Stainier DY, "Cardiovascular development in the zebrafish. I. Myocardial fate map and heart tube formation" 119 : 31-40, 1993
52 Yelon D, "Cardiac patterning and morphogenesis in zebrafish" 222 : 552-563, 2001
53 Rottbauer W, "Cardiac myosin light chain-2: a novel essential component of thick-myofilament assembly and contractility of the heart" 99 : 323-331, 2006
54 Matsui T, "Canopy1, a positive feedback regulator of FGF signaling, controls progenitor cell clustering during Kupffer’s vesicle organogenesis" 108 : 9881-9886, 2011
55 Auer TO, "CRISPR/Cas9 and TALEN-mediated knock-in approaches in zebrafish" 69 : 142-150, 2014
56 Reiter JF, "Bmp2b and Oep promote early myocardial differentiation through their regulation of gata5" 234 : 330-338, 2001
57 Ueno S, "Biphasic role for Wnt/betacatenin signaling in cardiac specification in zebrafish and embryonic stem cells" 104 : 9685-9690, 2007
58 Takao D, "Asymmetric distribution of dynamic calcium signals in the node of mouse embryo during left-right axis formation" 376 : 23-30, 2013
59 Zeng XX, "Apelin and its receptor control heart field formation during zebrafish gastrulation" 12 : 391-402, 2007
60 Kupperman E, "A sphingosine-1-phosphate receptor regulates cell migration during vertebrate heart development" 406 : 192-195, 2000
61 Dickmeis T, "A crucial component of the endoderm formation pathway, CASANOVA, is encoded by a novel sox-related gene" 15 : 1487-1492, 2001